restemplate/indy/Protocols/IdCompressorZLib.pas

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{
$Project$
$Workfile$
$Revision$
$DateUTC$
$Id$
This file is part of the Indy (Internet Direct) project, and is offered
under the dual-licensing agreement described on the Indy website.
(http://www.indyproject.org/)
Copyright:
(c) 1993-2005, Chad Z. Hower and the Indy Pit Crew. All rights reserved.
}
{
$Log$
}
{
Rev 1.9 3/5/2005 3:33:54 PM JPMugaas
Fix for some compiler warnings having to do with TStream.Read being platform
specific. This was fixed by changing the Compressor API to use TIdStreamVCL
instead of TStream. I also made appropriate adjustments to other units for
this.
Rev 1.8 10/24/2004 2:40:28 PM JPMugaas
Made a better fix for the problem with SmartFTP. It turns out that we may
not be able to avoid a Z_BUF_ERROR in some cases.
Rev 1.7 10/24/2004 11:17:08 AM JPMugaas
Reimplemented ZLIB Decompression in FTP better. It now should work properly
at ftp://ftp.smartftp.com.
Rev 1.6 9/16/2004 3:24:04 AM JPMugaas
TIdFTP now compresses to the IOHandler and decompresses from the IOHandler.
Noted some that the ZLib code is based was taken from ZLibEx.
Rev 1.4 9/11/2004 10:58:04 AM JPMugaas
FTP now decompresses output directly to the IOHandler.
Rev 1.3 6/21/2004 12:10:52 PM JPMugaas
Attempt to expand the ZLib support for Int64 support.
Rev 1.2 2/21/2004 3:32:58 PM JPMugaas
Foxed for Unit rename.
Rev 1.1 2/14/2004 9:59:50 PM JPMugaas
Reworked the API. There is now a separate API for the Inflate_ and
InflateInit2_ functions as well as separate functions for DeflateInit_ and
DeflateInit2_. This was required for FTP. The API also includes an optional
output stream for the servers.
Rev 1.0 2/12/2004 11:27:22 PM JPMugaas
New compressor based on ZLibEx.
}
unit IdCompressorZLib;
interface
{$i IdCompilerDefines.inc}
uses
Classes,
IdException,
IdIOHandler,
IdZLibCompressorBase,
IdZLibHeaders;
type
TIdCompressorZLib = class(TIdZLibCompressorBase)
protected
function GetIsReady : Boolean; override;
procedure InternalDecompressStream(LZstream: TZStreamRec; AIOHandler : TIdIOHandler;
AOutStream: TStream);
public
procedure DeflateStream(AInStream, AOutStream : TStream;
const ALevel : TIdCompressionLevel=0); override;
procedure InflateStream(AInStream, AOutStream : TStream); override;
procedure CompressStream(AInStream, AOutStream : TStream; const ALevel : TIdCompressionLevel; const AWindowBits, AMemLevel,
AStrategy: Integer); override;
procedure DecompressStream(AInStream, AOutStream : TStream; const AWindowBits : Integer); override;
procedure CompressFTPToIO(AInStream : TStream; AIOHandler : TIdIOHandler;
const ALevel, AWindowBits, AMemLevel, AStrategy: Integer); override;
procedure DecompressFTPFromIO(AIOHandler : TIdIOHandler; AOutputStream : TStream;
const AWindowBits : Integer); override;
end;
EIdCompressionException = class(EIdException);
EIdCompressorInitFailure = class(EIdCompressionException);
EIdDecompressorInitFailure = class(EIdCompressionException);
EIdCompressionError = class(EIdCompressionException);
EIdDecompressionError = class(EIdCompressionException);
implementation
uses
IdAntiFreezeBase, IdComponent, IdResourceStringsProtocols, IdGlobal,
IdGlobalProtocols, IdZLib, SysUtils;
const
bufferSize = 32768;
{ TIdCompressorZLib }
procedure TIdCompressorZLib.InternalDecompressStream(
LZstream: TZStreamRec; AIOHandler: TIdIOHandler; AOutStream: TStream);
{Note that much of this is taken from the ZLibEx unit and adapted to use the IOHandler}
var
zresult : Integer;
outBuffer: Array [0..bufferSize-1] of TIdAnsiChar;
inSize : Integer;
outSize : Integer;
LBuf : TIdBytes;
function RawReadFromIOHandler(ABuffer : TIdBytes; AOIHandler : TIdIOHandler; AMax : Integer) : Integer;
begin
//We don't use the IOHandler.ReadBytes because that will check
// for disconnect and raise an exception that we don't want.
// RLebeau 3/26/09: we need to raise exceptions here! The socket component
// that is performing the IO needs to know what is happening on the socket...
{
repeat
AIOHandler.CheckForDataOnSource(1);
Result := IndyMin(AIOHandler.InputBuffer.Size, AMax);
if Result > 0 then begin
AIOHandler.InputBuffer.ExtractToBytes(ABuffer, Result, False);
Break;
end;
until not AIOHandler.Connected;
}
// copied from TIdIOHandler.ReadStream() and trimmed down...
try
AIOHandler.ReadBytes(ABuffer, AMax, False);
except
on E: Exception do begin
// RLebeau - ReadFromSource() inside of ReadBytes()
// could have filled the InputBuffer with more bytes
// than actually requested, so don't extract too
// many bytes here...
AMax := IndyMin(AMax, AIOHandler.InputBuffer.Size);
AIOHandler.InputBuffer.ExtractToBytes(ABuffer, AMax, False);
if not (E is EIdConnClosedGracefully) then begin
raise;
end;
end;
end;
TIdAntiFreezeBase.DoProcess;
Result := AMax;
end;
begin
SetLength(LBuf, bufferSize);
repeat
inSize := RawReadFromIOHandler(LBuf, AIOHandler, bufferSize);
if inSize < 1 then begin
Break;
end;
LZstream.next_in := PIdAnsiChar(@LBuf[0]);
LZstream.avail_in := inSize;
repeat
LZstream.next_out := @outBuffer[0];
LZstream.avail_out := bufferSize;
DCheck(inflate(LZstream,Z_NO_FLUSH));
outSize := bufferSize - LZstream.avail_out;
AOutStream.Write(outBuffer, outSize);
until (LZstream.avail_in = 0) and (LZstream.avail_out > 0);
until False;
{ From the ZLIB FAQ at http://www.gzip.org/zlib/FAQ.txt
5. deflate() or inflate() returns Z_BUF_ERROR
Before making the call, make sure that avail_in and avail_out are not
zero. When setting the parameter flush equal to Z_FINISH, also make sure
that avail_out is big enough to allow processing all pending input.
Note that a Z_BUF_ERROR is not fatal--another call to deflate() or
inflate() can be made with more input or output space. A Z_BUF_ERROR
may in fact be unavoidable depending on how the functions are used, since
it is not possible to tell whether or not there is more output pending
when strm.avail_out returns with zero.
}
repeat
LZstream.next_out := @outBuffer[0];
LZstream.avail_out := bufferSize;
zresult := inflate(LZstream, Z_FINISH);
if zresult <> Z_BUF_ERROR then
begin
zresult := DCheck(zresult);
end;
outSize := bufferSize - LZstream.avail_out;
AOutStream.Write(outBuffer, outSize);
until ((zresult = Z_STREAM_END) and (LZstream.avail_out > 0)) or (zresult = Z_BUF_ERROR);
DCheck(inflateEnd(LZstream));
end;
procedure TIdCompressorZLib.DecompressFTPFromIO(AIOHandler : TIdIOHandler; AOutputStream : TStream;
const AWindowBits : Integer);
{Note that much of this is taken from the ZLibEx unit and adapted to use the IOHandler}
var
Lzstream: TZStreamRec;
LWinBits : Integer;
begin
AIOHandler.BeginWork(wmRead);
try
FillChar(Lzstream,SizeOf(TZStreamRec),0);
{
This is a workaround for some clients and servers that do not send decompression
headers. The reason is that there's an inconsistancy in Internet Drafts for ZLIB
compression. One says to include the headers while an older one says do not
include the headers.
If you add 32 to the Window Bits parameter,
}
LWinBits := AWindowBits;
if LWinBits > 0 then
begin
LWinBits := Abs( LWinBits) + 32;
end;
LZstream.zalloc := zlibAllocMem;
LZstream.zfree := zlibFreeMem;
DCheck(inflateInit2_(Lzstream,LWinBits,ZLIB_VERSION,SizeOf(TZStreamRec)));
InternalDecompressStream(Lzstream,AIOHandler,AOutputStream);
finally
AIOHandler.EndWork(wmRead);
end;
end;
procedure TIdCompressorZLib.CompressFTPToIO(AInStream : TStream;
AIOHandler : TIdIOHandler;
const ALevel, AWindowBits, AMemLevel, AStrategy: Integer);
{Note that much of this is taken from the ZLibEx unit and adapted to use the IOHandler}
var
LCompressRec : TZStreamRec;
zresult : Integer;
inBuffer : Array [0..bufferSize-1] of TIdAnsiChar;
outBuffer: Array [0..bufferSize-1] of TIdAnsiChar;
inSize : Integer;
outSize : Integer;
begin
AIOHandler.BeginWork(wmWrite, AInStream.Size);
try
FillChar(LCompressRec, SizeOf(TZStreamRec), 0);
CCheck( deflateInit2_(LCompressRec, ALevel, Z_DEFLATED, AWindowBits, AMemLevel,
AStrategy, ZLIB_VERSION, SizeOf(LCompressRec)));
inSize := AInStream.Read(inBuffer, bufferSize);
while inSize > 0 do
begin
LCompressRec.next_in := @inBuffer[0];
LCompressRec.avail_in := inSize;
repeat
LCompressRec.next_out := @outBuffer[0];
LCompressRec.avail_out := bufferSize;
CCheck(deflate(LCompressRec,Z_NO_FLUSH));
// outSize := zstream.next_out - outBuffer;
outSize := bufferSize - LCompressRec.avail_out;
if outsize <> 0 then
begin
AIOHandler.Write(RawToBytes(outBuffer, outSize));
end;
until (LCompressRec.avail_in = 0) and (LCompressRec.avail_out > 0);
inSize := AInStream.Read(inBuffer, bufferSize);
end;
repeat
LCompressRec.next_out := @outBuffer[0];
LCompressRec.avail_out := bufferSize;
zresult := CCheck(deflate(LCompressRec,Z_FINISH));
// outSize := zstream.next_out - outBuffer;
outSize := bufferSize - LCompressRec.avail_out;
// outStream.Write(outBuffer,outSize);
if outSize <> 0 then
begin
AIOHandler.Write(RawToBytes(outBuffer, outSize));
end;
until (zresult = Z_STREAM_END) and (LCompressRec.avail_out > 0);
CCheck(deflateEnd(LCompressRec));
finally
AIOHandler.EndWork(wmWrite);
end;
end;
procedure TIdCompressorZLib.CompressStream(AInStream,AOutStream : TStream;
const ALevel : TIdCompressionLevel;
const AWindowBits, AMemLevel, AStrategy: Integer);
begin
IdZLib.IndyCompressStream(AInStream,AOutStream,ALevel,AWindowBits,AMemLevel,AStrategy);
end;
procedure TIdCompressorZLib.DecompressStream(AInStream, AOutStream : TStream; const AWindowBits : Integer);
begin
IdZLib.IndyDeCompressStream(AInStream,AOutStream, AWindowBits);
end;
procedure TIdCompressorZLib.DeflateStream(AInStream, AOutStream : TStream; const ALevel : TIdCompressionLevel=0);
begin
IdZLib.IndyCompressStream(AInStream,AOutStream,ALevel);
end;
function TIdCompressorZLib.GetIsReady: Boolean;
begin
Result := IdZLibHeaders.Loaded;
end;
procedure TIdCompressorZLib.InflateStream(AInStream, AOutStream : TStream);
begin
IdZlib.DeCompressStream(AInStream,AOutStream);
end;
end.